Research output per year
Research output per year
Project Details
Description
The objective of the project is to design, create and characterize optimally nano-structured organic solar cells by developing and using mixtures of nano-particles from environmentally friendly aqueous dispersions. The aim of this approach is to pave the way for a new Danish industry with opportunities for establishing production and marketing in China. Denmark has already industry with the relevant competencies within printing, nanotechnology and solar cell printing in particular, but presently none with established interests in China.
The prospect of developing organic solar cells into a new GW energy technology entails a substantial risk of creating new environmental problems if the present state-of-the-art organic solar cell technology is simply up-scaled, with its heavy use of chlorinated and aromatic solvents. Our aim is to provide a water-based technology that is environmentally friendly both in terms of toxicity, material handling and energy use.
We aim to develop technology that provides an easy entry in organic solar cell manufacture for Danish industry and to help establish new collaborations together with our Chinese partners.
The prospect of developing organic solar cells into a new GW energy technology entails a substantial risk of creating new environmental problems if the present state-of-the-art organic solar cell technology is simply up-scaled, with its heavy use of chlorinated and aromatic solvents. Our aim is to provide a water-based technology that is environmentally friendly both in terms of toxicity, material handling and energy use.
We aim to develop technology that provides an easy entry in organic solar cell manufacture for Danish industry and to help establish new collaborations together with our Chinese partners.
| Status | Finished |
|---|---|
| Effective start/end date | 01/10/2012 → 30/09/2015 |
Collaborative partners
- Technical Unveristy of Denmark (Project partner)
Funding
- DSF
Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.
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Roll coated large area ITO- and vacuum-free all organic solar cells from diketopyrrolopyrrole based non-fullerene acceptors with molecular geometry effects
Brandt, R. G., Zhang, F., Andersen, T. R., Angmo, D., Minmin, S., Gurevich, L., Krebs, F. C., Andreasen, J. W. & Yu, D., 21 Apr 2016, In: RSC Advances. 6, 47, p. 41542-41550 9 p.Research output: Contribution to journal › Journal article › Research › peer-review
12 Citations (Scopus) -
An isoindigo containing donor-acceptor polymer: synthesis and photovoltaic properties of all-solution-processed ITO- and vacuum-free large area roll-coated single junction and tandem solar cells
Brandt, R. G., Yue, W., Andersen, T. R., Larsen-Olsen, T. T., Hinge, M., Bundgaard, E., Krebs, F. C. & Yu, D., 16 Jan 2015, In: Journal of Materials Chemistry C. 3, p. 1633-1639 7 p.Research output: Contribution to journal › Journal article › Research › peer-review
Open Access21 Citations (Scopus) -
Structure and crystallinity of water dispersible photoactive nanoparticles for organic solar cells
Pedersen, E. B. L., Pedersen, M. C., Simonsen, S. B., Brandt, R. G., Böttiger, A. P. L., Andersen, T. R., Jiang, W., Xie, Z., Krebs, F. C., Arleth, L. & Andreasen, J. W., 13 Jul 2015, In: Journal of Materials Chemistry A. 3, 33, p. 17022 - 17031 10 p.Research output: Contribution to journal › Journal article › Research › peer-review
29 Citations (Scopus)